Separating autotrophic and heterotrophic soil CO<sub>2</sub> effluxes in afforested peatlands

Abstract: Abstract. Peatlands are a significant global carbon (C) store, which can be compromised by drainage and afforestation. Quantifying the rate of C loss from peat soils under forestry is challenging, as soil CO2 efflux includes both CO2 produced from heterotrophic peat decomposition and CO2 produced by tree roots and associated fungal networks (autotrophic respiration). We experimentally terminated autotrophic belowground respiration in replicated forest plots by cutting through all living tree roots (trenching),… Show more

“…in line with their preference for overall wet conditions in blanket bogs (Laine et al, 2007) and peatlands in general (Cooper et al, 2014;Van Breemen, 1995). Increased water availability and higher water levels also increase R eco , something also observed in shallow peat cores from a site 10 km west of Knockfin Heights (Hermans et al, 2019) and a rewetting experiment on similar PFTs (Kuiper et al, 2014).…”

Blanket bog CO₂ flux driven by plant functional type during summer drought

“…in line with their preference for overall wet conditions in blanket bogs (Laine et al, 2007) and peatlands in general (Cooper et al, 2014;Van Breemen, 1995). Increased water availability and higher water levels also increase R eco , something also observed in shallow peat cores from a site 10 km west of Knockfin Heights (Hermans et al, 2019) and a rewetting experiment on similar PFTs (Kuiper et al, 2014).…”

Blanket bog CO₂ flux driven by plant functional type during summer drought